Sharp Bounds for the Second Hankel Determinant of Logarithmic Coefficients for Strongly Starlike and Strongly Convex Functions

Eker, Sevtap Sümer; Şeker, Bilal; Çekiç, B.; Acu, Mugur

doi:10.3390/axioms11080369

Cited by 11 publications

(6 citation statements)

References 25 publications

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“…Recent studies, like [49], have shown that the classes could be studied further when the strong starlikeness of order α of the operator (λ, q)-fractional differintegral operator can be taken into consideration.…”

Section: Discussionmentioning

confidence: 99%

A Fractional Differential Operator Based on Quantum Calculus and Bi-Close-to-Convex Functions

Jia,

Alb Lupas,

Jebreen

et al. 2024

Preprint

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This study explores the properties and behavior of bi-close-to-convex functions, introducing new subclasses defined by their relationship with fractional differential operator and bi-univalent functions. Using the Faber polynomial technique, we derive upper bounds for the n^{th} coefficient of functions in these classes. We also investigate the erratic behavior of initial coefficients in bi-close-to-convex functions, as characterized by the (λ,q)-fractional differintegral operator. Furthermore, we address Fekete-Szegö problems and present notable findings from our investigation, contributing to the continued growth and refinement of geometric function theory, yielding new insights and practical uses.

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Section: Discussionmentioning

confidence: 99%

A Fractional Differential Operator Based on Quantum Calculus and Bi-Close-to-Convex Functions

Jia,

Alb Lupas,

Jebreen

et al. 2024

Preprint

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“…Considering the importance of the logarithmic coefficients, in reference [8], Sevtap Sümer Eker, Bilal Şeker, Bilal Çekiç, and Mugur Acu obtain the sharp bounds for the second Hankel determinant concerning the logarithmic coefficients of strongly starlike functions and strongly convex functions. The results presented here could inspire further studies that focus on other subclasses of univalent functions and obtain the boundaries for higher-order Hankel determinants.…”

Section: Overview Of the Published Papersmentioning

confidence: 99%

New Developments in Geometric Function Theory

Oros

2023

Axioms

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“…For further investigations of the Hankel determinant on logarithmic coefficients, see [57][58][59][60]. In this section, we compute the sharp estimates of logarithmic coefficients up to µ 3 and Fekete-Szegö, Zalcman, and Krushkal inequalities along with the Hankel determinant H 2,1 G g /2 for the class SS * SG .…”

Section: Logarithmic Coefficientmentioning

confidence: 99%

Problems Concerning Coefficients of Symmetric Starlike Functions Connected with the Sigmoid Function

et al. 2023

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In numerous geometric and physical applications of complex analysis, estimating the sharp bounds of coefficient-related problems of univalent functions is very important due to the fact that these coefficients describe the core inherent properties of conformal maps. The primary goal of this paper was to calculate the sharp estimates of the initial coefficients and some of their combinations (the Hankel determinants, Zalcman’s functional, etc.) for the class of symmetric starlike functions linked with the sigmoid function. Moreover, we also determined the bounds of second-order Hankel determinants containing coefficients of logarithmic and inverse functions of the same class.

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Sharp Bounds for the Second Hankel Determinant of Logarithmic Coefficients for Strongly Starlike and Strongly Convex Functions

Cited by 11 publications

References 25 publications

A Fractional Differential Operator Based on Quantum Calculus and Bi-Close-to-Convex Functions

A Fractional Differential Operator Based on Quantum Calculus and Bi-Close-to-Convex Functions

New Developments in Geometric Function Theory

Problems Concerning Coefficients of Symmetric Starlike Functions Connected with the Sigmoid Function

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